3D Modeling and Size Adaptation of Individual Human Body Avatars from Parametric Measurement Data for 3D Construction and Analysis Tasks

Viktoriya KLEBAN; Lothar PAUL

doi:10.15221/10.353

3D Modeling and Size Adaptation of Individual Human Body Avatars from Parametric Measurement Data for 3D Construction and Analysis Tasks - 10.353

V. Kleban and L. Paul, "3D Modeling and Size Adaptation of Individual Human Body Avatars from Parametric Measurement Data for 3D Construction and Analysis Tasks", in Proc. of 1st Int. Conf. on 3D Body Scanning Technologies, Lugano, Switzerland, 2010, pp. 353-360, https://doi.org/10.15221/10.353.

Title:

3D Modeling and Size Adaptation of Individual Human Body Avatars from Parametric Measurement Data for 3D Construction and Analysis Tasks

Authors:

Viktoriya KLEBAN, Lothar PAUL

Gesellschaft zur Förderung angewandter Informatik e.V. Berlin (GfaI), Berlin, Germany

Abstract:

Realistic human body models, providing individual or table measures and form features, are required for innovative 3D pattern construction of made-to-measure garment and for ergonomic customized equipment design. Typically, not complete information about the form of individual bodies is available from measures or tables, but only crucial parameters like lengths, perimeters or single curvature. That means, sophisticated approaches including anatomical and aesthetic a-priori knowledge and experience are necessary to build or adapt a complete 3D body model from such data. Further, virtual manipulation of body models like positioning of limbs, posture adaptation and motions, particularly without any underlying model of muscles, sinews or fat tissue needs complex mathematics for the achievement of realistic results. The contribution presents analysis and results in an approach based on CSRBFs for 3D modeling and adaptation of human body models, aiming at usage of size tables, BodyFit 3D measures and motion capture records.

Keywords:

3D-Modelling, 3D-Avatar, body parameters, deformation, animation, CSRBFs, construction, ergonomics, orthopedics

Details:

Full paper: 10.353.pdf
Proceedings: 3DBST 2010, 19-20 Oct. 2010, Lugano, Switzerland
Pages: 353-360
DOI: https://doi.org/10.15221/10.353

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Proceedings: © Hometrica Consulting - Dr. Nicola D'Apuzzo, Switzerland, hometrica.ch.
Authors retain all rights to individual papers, which are licensed under a Creative Commons Attribution 4.0 International License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
The papers appearing in the proceedings reflect the author's opinions. Their inclusion in the proceedings does not necessary constitute endorsement by the editor or by the publisher.

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